#define _GNU_SOURCE #include "protocol.h" #include "helpers.h" #include #include #include #include // find N level domain static bool FindNLD(const uint8_t *dom, size_t dlen, int level, const uint8_t **p, size_t *len) { int i; const uint8_t *p1,*p2; for (i=1,p2=dom+dlen;idom && *p2!='.'; p2--); if (p2<=dom) return false; } for (p1=p2-1 ; p1>dom && *p1!='.'; p1--); if (*p1=='.') p1++; if (p) *p = p1; if (len) *len = p2-p1; return true; } const char *http_methods[] = { "GET /","POST /","HEAD /","OPTIONS /","PUT /","DELETE /","CONNECT /","TRACE /",NULL }; const char *HttpMethod(const uint8_t *data, size_t len) { const char **method; size_t method_len; for (method = http_methods; *method; method++) { method_len = strlen(*method); if (method_len <= len && !memcmp(data, *method, method_len)) return *method; } return NULL; } bool IsHttp(const uint8_t *data, size_t len) { return !!HttpMethod(data,len); } static bool IsHostAt(const uint8_t *p) { return \ p[0]=='\n' && (p[1]=='H' || p[1]=='h') && (p[2]=='o' || p[2]=='O') && (p[3]=='s' || p[3]=='S') && (p[4]=='t' || p[4]=='T') && p[5]==':'; } static uint8_t *FindHostIn(uint8_t *buf, size_t bs) { size_t pos; if (bs<6) return NULL; bs-=6; for(pos=0;pos<=bs;pos++) if (IsHostAt(buf+pos)) return buf+pos; return NULL; } static const uint8_t *FindHostInConst(const uint8_t *buf, size_t bs) { size_t pos; if (bs<6) return NULL; bs-=6; for(pos=0;pos<=bs;pos++) if (IsHostAt(buf+pos)) return buf+pos; return NULL; } // pHost points to "Host: ..." bool HttpFindHost(uint8_t **pHost,uint8_t *buf,size_t bs) { if (!*pHost) { *pHost = FindHostIn(buf, bs); if (*pHost) (*pHost)++; } return !!*pHost; } bool HttpFindHostConst(const uint8_t **pHost,const uint8_t *buf,size_t bs) { if (!*pHost) { *pHost = FindHostInConst(buf, bs); if (*pHost) (*pHost)++; } return !!*pHost; } bool IsHttpReply(const uint8_t *data, size_t len) { // HTTP/1.x 200\r\n return len>14 && !memcmp(data,"HTTP/1.",7) && (data[7]=='0' || data[7]=='1') && data[8]==' ' && data[9]>='0' && data[9]<='9' && data[10]>='0' && data[10]<='9' && data[11]>='0' && data[11]<='9'; } int HttpReplyCode(const uint8_t *data, size_t len) { return (data[9]-'0')*100 + (data[10]-'0')*10 + (data[11]-'0'); } bool HttpExtractHeader(const uint8_t *data, size_t len, const char *header, char *buf, size_t len_buf) { const uint8_t *p, *s, *e = data + len; p = (uint8_t*)strncasestr((char*)data, header, len); if (!p) return false; p += strlen(header); while (p < e && (*p == ' ' || *p == '\t')) p++; s = p; while (s < e && (*s != '\r' && *s != '\n' && *s != ' ' && *s != '\t')) s++; if (s > p) { size_t slen = s - p; if (buf && len_buf) { if (slen >= len_buf) slen = len_buf - 1; for (size_t i = 0; i < slen; i++) buf[i] = tolower(p[i]); buf[slen] = 0; } return true; } return false; } bool HttpExtractHost(const uint8_t *data, size_t len, char *host, size_t len_host) { return HttpExtractHeader(data, len, "\nHost:", host, len_host); } // DPI redirects are global redirects to another domain bool HttpReplyLooksLikeDPIRedirect(const uint8_t *data, size_t len, const char *host) { char loc[256],*redirect_host, *p; int code; if (!host || !*host) return false; code = HttpReplyCode(data,len); if ((code!=302 && code!=307) || !HttpExtractHeader(data,len,"\nLocation:",loc,sizeof(loc))) return false; // something like : https://censor.net/badpage.php?reason=denied&source=RKN if (!strncmp(loc,"http://",7)) redirect_host=loc+7; else if (!strncmp(loc,"https://",8)) redirect_host=loc+8; else return false; // somethinkg like : censor.net/badpage.php?reason=denied&source=RKN for(p=redirect_host; *p && *p!='/' ; p++); *p=0; if (!*redirect_host) return false; // somethinkg like : censor.net // extract 2nd level domains const char *dhost, *drhost; if (!FindNLD((uint8_t*)host,strlen(host),2,(const uint8_t**)&dhost,NULL) || !FindNLD((uint8_t*)redirect_host,strlen(redirect_host),2,(const uint8_t**)&drhost,NULL)) return false; // compare 2nd level domains return strcasecmp(dhost, drhost)!=0; } size_t HttpPos(enum httpreqpos tpos_type, size_t hpos_pos, const uint8_t *http, size_t sz) { const uint8_t *method, *host=NULL; int i; switch(tpos_type) { case httpreqpos_method: // recognize some tpws pre-applied hacks method=http; if (sz<10) break; if (*method=='\n' || *method=='\r') method++; if (*method=='\n' || *method=='\r') method++; for (i=0;i<7;i++) if (*method>='A' && *method<='Z') method++; if (i<3 || *method!=' ') break; return method-http-1; case httpreqpos_host: if (HttpFindHostConst(&host,http,sz) && (host-http+7)= 6 && data[0] == 0x16 && data[1] == 0x03 && data[2] <= 0x03 && data[5] == 0x01 && (bPartialIsOK || TLSRecordLen(data) <= len); } // bPartialIsOK=true - accept partial packets not containing the whole TLS message bool TLSFindExtInHandshake(const uint8_t *data, size_t len, uint16_t type, const uint8_t **ext, size_t *len_ext, bool bPartialIsOK) { // +0 // u8 HandshakeType: ClientHello // u24 Length // u16 Version // c[32] random // u8 SessionIDLength // // u16 CipherSuitesLength // // u8 CompressionMethodsLength // // u16 ExtensionsLength size_t l, ll; l = 1 + 3 + 2 + 32; // SessionIDLength if (len < (l + 1)) return false; if (!bPartialIsOK) { ll = data[1] << 16 | data[2] << 8 | data[3]; // HandshakeProtocol length if (len < (ll + 4)) return false; } l += data[l] + 1; // CipherSuitesLength if (len < (l + 2)) return false; l += pntoh16(data + l) + 2; // CompressionMethodsLength if (len < (l + 1)) return false; l += data[l] + 1; // ExtensionsLength if (len < (l + 2)) return false; data += l; len -= l; l = pntoh16(data); data += 2; len -= 2; if (bPartialIsOK) { if (len < l) l = len; } else { if (len < l) return false; } while (l >= 4) { uint16_t etype = pntoh16(data); size_t elen = pntoh16(data + 2); data += 4; l -= 4; if (l < elen) break; if (etype == type) { if (ext && len_ext) { *ext = data; *len_ext = elen; } return true; } data += elen; l -= elen; } return false; } bool TLSFindExt(const uint8_t *data, size_t len, uint16_t type, const uint8_t **ext, size_t *len_ext, bool bPartialIsOK) { // +0 // u8 ContentType: Handshake // u16 Version: TLS1.0 // u16 Length size_t reclen; if (!IsTLSClientHello(data, len, bPartialIsOK)) return false; reclen=TLSRecordLen(data); if (reclen= len_host) slen = len_host - 1; for (size_t i = 0; i < slen; i++) host[i] = tolower(ext[i]); host[slen] = 0; } return true; } bool TLSHelloExtractHost(const uint8_t *data, size_t len, char *host, size_t len_host, bool bPartialIsOK) { const uint8_t *ext; size_t elen; if (!TLSFindExt(data, len, 0, &ext, &elen, bPartialIsOK)) return false; return TLSExtractHostFromExt(ext, elen, host, len_host); } bool TLSHelloExtractHostFromHandshake(const uint8_t *data, size_t len, char *host, size_t len_host, bool bPartialIsOK) { const uint8_t *ext; size_t elen; if (!TLSFindExtInHandshake(data, len, 0, &ext, &elen, bPartialIsOK)) return false; return TLSExtractHostFromExt(ext, elen, host, len_host); } // find N level domain in SNI static bool TLSHelloFindNLDInSNI(const uint8_t *ext, size_t elen, int level, const uint8_t **p, size_t *len) { size_t slen; return TLSAdvanceToHostInSNI(&ext,&elen,&slen) && FindNLD(ext,slen,level,p,len); } // find the middle of second level domain (SLD) in SNI ext : www.sobaka.ru => aka.ru // return false if SNI ext is bad or SLD is not found static bool TLSHelloFindMiddleOfSLDInSNI(const uint8_t *ext, size_t elen, const uint8_t **p) { size_t len; if (!TLSHelloFindNLDInSNI(ext,elen,2,p,&len)) return false; // in case of one letter SLD (x.com) we split at '.' to prevent appearance of the whole SLD *p = (len==1) ? *p+1 : *p+len/2; return true; } size_t TLSPos(enum tlspos tpos_type, size_t tpos_pos, const uint8_t *tls, size_t sz, uint8_t type) { size_t elen; const uint8_t *ext, *p; switch(tpos_type) { case tlspos_sni: case tlspos_sniext: if (TLSFindExt(tls,sz,0,&ext,&elen,false)) return (tpos_type==tlspos_sni) ? ext-tls+6 : ext-tls+1; break; case tlspos_snisld: if (TLSFindExt(tls,sz,0,&ext,&elen,false)) if (TLSHelloFindMiddleOfSLDInSNI(ext,elen,&p)) return p-tls; break; case tlspos_pos: break; default: return 0; } return tpos_pos